• CCIE Security 350-018 exam will be retired on January 30, 2017, the new exam is 400-251.
  • CCNA Data Center 640-911 DCICN exam will be retired on April 11, 2017.
  • CCNA Data Center 640-916 DCICT exam will be retired on April 11, 2017.
  • CCNP Data Center 642-035 DCUCT exam will be retired on July 3, 2017.
  • CCNP Data Center 642-980 DCUFT exam will be retired on July 3, 2017.
  • CCNP Data Center 642-996 DCUFD exam will be retired on July 3, 2017.
  • CCNP Data Center 642-997 DCUFI exam will be retired on July 3, 2017.
  • CCNP Data Center 642-998 DCUCD exam will be retired on July 3, 2017.
  • CCNP Data Center 642-999 DCUCI exam will be retired on July 3, 2017.
  • The new CCNP Data Center certification required exams are 300-180 DCIT, 300-165 DCII, 300-160 DCID, 300-175 DCUCI and 300-170 DCVAI exams.

Tag Archives: 200-310 test

16 Oct

200-310 DESGN Designing for Cisco Internetwork Solutions

Designing for Cisco Internetwork Solutions is the full name of 200-310 test. There are 55-65 questions in real Cisco 200-310 DESGN exam, which will take the candidates 75 minutes to complete the test. The Associated Certifications of Cisco 200-310 DESGN exam is CCDA. The available language is English. Candidates can register Cisco 200-310 DESGN exam at Pearson VUE testing center.

Cisco 200-310 DESGN  exam requires a foundation or apprentice knowledge of network design for Cisco enterprise network architectures. CCDA certified professionals can design routed and switched network infrastructures and services involving LAN/WAN technologies for SMB or basic enterprise campus and branch networks.

Knowing Cisco 200-310 DESGN exam topics are valuable in your preparation.

1.0 Design Methodologies 15%

1.1 Describe the Cisco Design lifecycle – PBM (plan, build, manage)
1.2 Describe the information required to characterize an existing network as part of the planning for a design change
1.3 Describe the use cases and benefits of network characterization tools (SNMP, NBAR, NetFlow)
1.4 Compare and contrast the top-down and bottom-up design approaches

2.0 Design Objectives 20%

2.1 Describe the importance and application of modularity in a network
2.2 Describe the importance and application of hierarchy in a network
2.3 Describe the importance and application of scalability in a network
2.4 Describe the importance and application of resiliency in a network
2.5 Describe the importance and application of concept of fault domains in a network

3.0 Addressing and Routing Protocols in an Existing Network 20%

3.1 Describe the concept of scalable addressing
3.1.a Hierarchy
3.1.b Summarization
3.1.c Efficiency
3.2 Design an effective IP addressing scheme
3.2.a Subnetting
3.2.b Summarization
3.2.c Scalability
3.2.d NAT
3.3 Identify routing protocol scalability considerations
3.3.a Number of peers
3.3.b Convergence requirements
3.3.c Summarization boundaries and techniques
3.3.d Number of routing entries
3.3.e Impact of routing table of performance
3.3.f Size of the flooding domain
3.3.g Topology
3.4 Design a routing protocol expansion
3.4.a IGP protocols (EIGRP, OSPF, ISIS)
3.4.b BGP (eBGP peering, iBGP peering

4.0 Enterprise Network Design 20%

4.1 Design a basic campus
4.1.a Layer 2/Layer 3 demarcation
4.1.b Spanning tree
4.1.c Ether channels
4.1.d First Hop Redundancy Protocols (FHRP)
4.1.e Chassis virtualization
4.2 Design a basic enterprise network
4.2.a Layer 3 protocols and redistribution
4.2.b WAN connectivity
4.2.b(i) Topologies (hub and spoke, spoke to spoke, point to point, full/partial mesh)
4.2.b(ii) Connectivity methods (DMVPN, get VPN, MPLS Layer 3 VPN, Layer 2 VPN, static IPsec, GRE,VTI)
4.2.b(iii) Resiliency (SLAs, backup links, QoS)
4.2.c Connections to the data center
4.2.d Edge connectivity
4.2.d(i) Internet connectivity
4.2.d(ii) ACLs and firewall placements
4.2.d(iii) NAT placement
4.3 Design a basic branch network
4.3.a Redundancy
4.3.a(i) Connectivity
4.3.a(ii) Hardware
4.3.a(iii) Service provider
4.3.b Link capacity
4.3.b(i) Bandwidth
4.3.b(ii) Delay

5.0 Considerations for Expanding an Existing Network 25%

5.1 Describe design considerations for wireless network architectures
5.1.a Physical and virtual controllers
5.1.b Centralized and decentralized designs
5.2 Identify integration considerations and requirements for controller-based wireless networks
5.2.a Traffic flows
5.2.b Bandwidth consumption
5.2.c AP and controller connectivity
5.2.d QoS
5.3 Describe security controls integration considerations
5.3.a Traffic filtering and inspection
5.3.b Firewall and IPS placement and functionality
5.4 Identify traffic flow implications as a result of security controls
5.4.a Client access methods
5.4.b Network access control
5.5 Identify high-level considerations for collaboration (voice, streaming video, interactive video) applications
5.5.a QoS (shaping vs. policing, trust boundaries, jitter, delay, loss)
5.5.b Capacity
5.5.c Convergence time
5.5.d Service placement
5.6 Describe the concepts of virtualization within a network design
5.7 Identify network elements that can be virtualized
5.7.a Physical elements (chassis, VSS, VDC, contexts)
5.7.b Logical elements (routing elements, tunneling, VRFs, VLANs)
5.8 Describe the concepts of network programmability within a network design
5.8.a APIs
5.8.b Controllers
5.8.c Application Centric Infrastructure (ACI)
5.9 Describe data center components
5.9.a Server load balancing basics
5.9.b Blocking vs. non-blocking Layer 2
5.9.c Layer 2 extension

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